Solving the 0–1 multi-objective knapsack problem using self-assembly of DNA tiles

Author

Cheng, Zhen ; Huang, Yufang ; Chen, Zhihua ; Zhang, Xuncai ; Xu, Jin

Author_Institution

Dept. of Control Sci. & Eng., Huazhong Univ. of Sci. & Technol., Wuhan, China

fYear

2009

fDate

16-19 Oct. 2009

Firstpage

1

Lastpage

9

Abstract

Recently, many researchers have demonstrated that computation by DNA tile self-assembly may be scalable and it is considered as a promising technique in nanotechnology. In this paper, we show how the tile self-assembly process can be used for solving the 0-1 multi-objective knapsack problem by mainly constructing four small systems which are nondeterministic guess system, multiplication system, addition system and comparing system, by which we can probabilistically get the feasible solution of the problem. Our model can successfully perform the 0-1 multi-objective knapsack problem in polynomial time with optimal Theta(1) distinct tile types, parallely and at very low cost.

Keywords

biocomputing; computational complexity; knapsack problems; nanotechnology; probability; 0-1 multiobjective knapsack problem; addition system; multiplication system; nanotechnology; nondeterministic guess system; polynomial time; probability; self-assembly-of-DNA tile; Assembly; Concurrent computing; Cryptography; Crystals; DNA computing; NP-complete problem; Nanostructures; Nanotechnology; Self-assembly; Tiles;

fLanguage

English

Publisher

ieee

Conference_Titel

Bio-Inspired Computing, 2009. BIC-TA '09. Fourth International Conference on

Conference_Location

Beijing

Print_ISBN

978-1-4244-3866-2

Electronic_ISBN

978-1-4244-3867-9

Type

conf

DOI

10.1109/BICTA.2009.5338138

Filename

5338138